AIM:To explore the role of a previously-found MYH9 tail domain mutation(p.E1384Q)in the pathogenesis of congenital cataract.METHODS:The cell experiments were conducted in vitro.Wild-type(WT)MYH9 and p.E1384Q mutant fr...AIM:To explore the role of a previously-found MYH9 tail domain mutation(p.E1384Q)in the pathogenesis of congenital cataract.METHODS:The cell experiments were conducted in vitro.Wild-type(WT)MYH9 and p.E1384Q mutant fragments were constructed,which was then transiently transfected into Hek293T cell lines.Western blotting and quantitative real time polymerase chain reaction(qRT-PCR)were used to analyze the protein and mRNA level of non-muscle myosin IIA(NM IIA)and F-actin in transfected cells,and fluorescence microscopy was applied to explore the subcellular localization of NM IIA and F-actin.Cell counting kit-8(CCK8),woundhealing and double staining flow cytometry assays were performed to evaluate the proliferation,migration and apoptosis function of transfected cells,respectively.Transmission electron microscope was conducted to observe the alteration of organelle structure.RESULTS:The transiently-transfected WT and p.E1384Q mutant Hek293T cell lines was constructed.Western blot demonstrated that,comparing with MYH9WT group,the relative protein amount of NM IIA and F-actin significantly decreased in MYH9E1384Q cells(P<0.001).qRT-PCR analysis revealed that the relative mRNA amount of NM IIA and F-actin also significantly reduced in MYH9E1384Q cells when compared with MYH9WT.The immunofluorescence microscopy showed that the fluorescence signal of NM IIA and F-actin significantly decreased in E1384Q cells.The diffuse cytoplasmic distribution of NM IIA in MYH9WT was changed to be clumped distribution,presenting a“speckled”pattern characterized by aggregates of small size in MYH9E1384Q.Functional study revealed that the E1384Q mutation significantly inhibited cell proliferation(P=0.003)and migration(P<0.001),and promoted apoptosis(P<0.001).Electron microscope showed that the mutation remarkably decreased the number of mitochondria(P<0.001)and changed the phenotype of mitochondria.CONCLUSION:The missense gene mutation in MYH9(p.E1384Q)causing congenital cataract results in decreased amount and altered subcellular distribution of NM IIA and F-actin,accompanied by decreased cell proliferation and migration,promotes apoptosis and mitochondrial alteration.展开更多
Food Science and Human Wellness (FSHW ISSN:2213-4530, CN 10-1750/TS) publishes original research papers demonstrating the latest advancement of multidisciplinary subjects related to food science and human health.Topic...Food Science and Human Wellness (FSHW ISSN:2213-4530, CN 10-1750/TS) publishes original research papers demonstrating the latest advancement of multidisciplinary subjects related to food science and human health.Topics may include but not limited to: nutriology, biochemistry, microbiology, immunology and toxicology.展开更多
Food Science and Human Wellness(FSHW ISSN:2213-4530,CN 10-1750/TS)publishes original research papers demonstrating the latest advancement of multidisci plinary subjects related to food science and human health Topics ...Food Science and Human Wellness(FSHW ISSN:2213-4530,CN 10-1750/TS)publishes original research papers demonstrating the latest advancement of multidisci plinary subjects related to food science and human health Topics may include but not limited to:nutriology,bio.chemistry,microbiology,immunology and toxicology.展开更多
AIM:To compare the efficacy of goniosynechialysis(GSL)under a microscope alone(GM)and under direct gonioscopy(GG)for chronic angle-closure glaucoma(CACG)coexisted with cataract.METHODS:A prospective,single-center,and ...AIM:To compare the efficacy of goniosynechialysis(GSL)under a microscope alone(GM)and under direct gonioscopy(GG)for chronic angle-closure glaucoma(CACG)coexisted with cataract.METHODS:A prospective,single-center,and randomized controlled trial was conducted.Patients diagnosed as CACG and cataract were randomly allocated into either GM group or GG group.In GM group,the range of peripheral anterior synechiae(PAS)was confirmed through gonio-lens after phacoemulsification with intraocular lens implantation(PEI).PAS was separated only under a microscope.After separating the closed angle of 360°by this method,we used a surgical gonioscope to confirm the PAS range.If any remaining PAS was present,we would separate them with an iris repositor under the direct gonio-lens until angle of 360°was reopened.In GG group,PAS was separated under direct gonioscopy after PEI until angle of 360°was reopened.The range of residual PAS after GSLs was the primary outcome.Intraoperative complications(hyphema),intraocular pressure(IOP)and anti-glaucoma medication usage after operation were the secondary outcomes.RESULTS:Sixty eyes were included,each group comprising 30 eyes.The average age[GM group:66.3±6.8y(12 males),GG group:67.6±8.9y(7 males),P=0.550],the baseline IOP(GM group:29.6±11.5 mm Hg,GG group:32.4±12.2 mm Hg,P=0.366)and the average initial PAS extent(GM group:8.9±2.6h,GG group:9.4±2.5h,P=0.425)were similar in the two groups.In GM group,the PAS range reduced from 8.9±2.6h before operation to 7.2±2.9h after PEI and 3.3±2.2h after GSL.In GG group,the PAS range reduced from 9.4±2.5h before operation to 7.5±2.9h after PEI and 0.1±0.3h after GSL.The PAS after PEI was significantly reduced compared to the preoperative PAS in both groups(all P<0.001).The extent of residual PAS after GSL in GM group was larger than that in GG group with significant statistical difference(P<0.001).Patients who underwent GSL without a gonioscope were more likely to develop hyphema than those who underwent GSL under direct gonioscopy.The difference of hyphema grade between the two groups was statistically significant(P=0.019).CONCLUSION:PEI alone can not open 360°of angle completely.PEI+GSL significantly reduced PAS range.But for patients with CACG,GSL under a microscope alone is more difficult to separate stable PAS completely and adequately than GSL under direct gonioscopy.展开更多
AIM:To investigate the causal effect of obesity on cataract risk and explores the potential mediating roles of metabolites using Mendelian randomization(MR).METHODS:Summary-level data from large-scale genome-wide asso...AIM:To investigate the causal effect of obesity on cataract risk and explores the potential mediating roles of metabolites using Mendelian randomization(MR).METHODS:Summary-level data from large-scale genome-wide association studies to examine the relationship between obesity and cataract were utilized.Obesity-related traits,including body mass index(BMI),waist-to-hip ratio(WHR),and waist circumference(WC).A two-sample MR approach was employed to assess the causal effect of obesity on cataract risk,while potential mediators were identified from suitable genome-wide association studies(GWAS)datasets.Additionally,a metabolic pathway analysis was conducted.RESULTS:An increase of 1 standard deviation(SD)in BMI,WHR,and WC was associated with a significantly higher risk of cataract(BMI:odds ratio(OR)1.0017,95%confidence interval(CI):1.0001-1.0032,P=0.0320;WHR:OR 1.0029,95%CI:1.0006-1.0051,P=0.0129;WC:OR 1.0020,95%CI:1.0001-1.0038,P=0.0390].These associations remained robust after adjusting for confounding factors in multivariable MR analysis.Furthermore,a two-step MR analysis identified eight potential metabolic mediators,with one mediator showing a significant causal role in the relationship between obesity and cataract.CONCLUSION:This work highlights the importance of addressing obesity as a modifiable risk factor for cataracts,particularly through metabolic pathways.展开更多
AIM:To compare the anatomical and functional outcomes of combined phacoemulsification with intravitreal dexamethasone implant(DEX-I)versus anti-vascular endothelial growth factor(VEGF)injections in patients with diabe...AIM:To compare the anatomical and functional outcomes of combined phacoemulsification with intravitreal dexamethasone implant(DEX-I)versus anti-vascular endothelial growth factor(VEGF)injections in patients with diabetic macular edema(DME)and visually significant cataract.METHODS:This nonrandomized,retrospective analysis included 54 eyes undergoing phacoemulsification with DEX-I(DEX-I group)and 47 eyes receiving anti-VEGF injections(anti-VEGF group).Best-corrected visual acuity(BCVA)and central macular thickness(CMT)were measured preoperatively and postoperatively at 1 and 3mo.RESULTS:The two groups had comparable baseline characteristics,with similar age(DEX-I:66.83±7.27y;anti-VEGF:66.81±6.79y)and gender distribution(51.9%vs 59.6%males).Both groups showed significant BCVA improvement at 1 and 3mo,with no significant intergroup differences.CMT reduction was significantly greater in the DEX-I group at 3mo(25.03%vs 14.07%;P=0.049),particularly in recalcitrant eyes(25.09%vs 11.10%;P=0.007).Postoperative intraocular pressure(IOP)>21 mm Hg was observed in 14.8%of DEX-I eyes and 4.25%of anti-VEGF eyes(P=0.08),normalizing by 3mo.DEX-I required no reinjection,while 29.79%of anti-VEGF eyes needed a fourth dose at 3mo.Complications were minimal,with one posterior capsular injury in the DEX-I group.CONCLUSION:Combined phacoemulsification with intravitreal DEX-I offers superior CMT reduction and comparable visual acuity improvement to anti-VEGF injections in DME,with fewer required treatments.It is an effective strategy for managing cataract with DME,offering benefits,especially for recalcitrant cases.Both therapies have favourable safety profiles,but further long-term studies are needed for clinical guidance.展开更多
AIM:To assess the visual acuity and visual quality of cataract patients who received femtosecond laser-assisted cataract surgery(FLACS)and multifocal intraocular lens(MIOL)implantation with an improved polishing techn...AIM:To assess the visual acuity and visual quality of cataract patients who received femtosecond laser-assisted cataract surgery(FLACS)and multifocal intraocular lens(MIOL)implantation with an improved polishing technique during a 1-year follow-up period.METHODS:This study included 74 eyes from 37 patients,comprising 17 males and 20 females,with a mean age of 51.74±7.80 years.Using a coin toss method,one eye per patient was randomly selected for improved anterior capsular polishing,while the other eye received standard irrigation/aspiration(I/A)polishing.The polishing group consisted of 37 eyes,including 21 right and 16 left eyes,while the control group comprised the contralateral fellow eyes of the same individuals in the polishing group.Visual acuity and quality of the patients were evaluated before surgery and at 1 wk,1,6,and 12 mo after surgery.The OPD-Scan III was utilized to assess high-order aberrations,while the optical quality analysis system(OQAS)was employed to evaluate modulation transfer function(MTF cutoff),Strehl ratio(SR),and objective scatter index(OSI)for the purpose of visual quality assessment.Paired t-tests and repeated measures analysis of variance(ANOVA)were utilized to compare the results,and the SNK-q post hoc test was applied to identify significant differences.RESULTS:The polishing group’s uncorrected distant visual acuity(UDVA)and uncorrected near visual acuity(UNVA)significantly improved 1-week post-surgery(all P<0.05).At 12-months,UDVA,UNVA,and corrected distant visual acuity(CDVA)were better than the control group(P<0.05).The MTF cutoff,SR,OSI,and high-order aberrations in the polishing group also showed significant improvements compared to the control group at 12 mo(P<0.05).CONCLUSION:The improved capsular polishing method has been demonstrated to effectively maintain visual acuity and visual quality in patients with MIOL after FLACS within 1 a.展开更多
With the growing advancement of wireless communication technologies,WiFi-based human sensing has gained increasing attention as a non-intrusive and device-free solution.Among the available signal types,Channel State I...With the growing advancement of wireless communication technologies,WiFi-based human sensing has gained increasing attention as a non-intrusive and device-free solution.Among the available signal types,Channel State Information(CSI)offers fine-grained temporal,frequency,and spatial insights into multipath propagation,making it a crucial data source for human-centric sensing.Recently,the integration of deep learning has significantly improved the robustness and automation of feature extraction from CSI in complex environments.This paper provides a comprehensive review of deep learning-enhanced human sensing based on CSI.We first outline mainstream CSI acquisition tools and their hardware specifications,then provide a detailed discussion of preprocessing methods such as denoising,time–frequency transformation,data segmentation,and augmentation.Subsequently,we categorize deep learning approaches according to sensing tasks—namely detection,localization,and recognition—and highlight representative models across application scenarios.Finally,we examine key challenges including domain generalization,multi-user interference,and limited data availability,and we propose future research directions involving lightweight model deployment,multimodal data fusion,and semantic-level sensing.展开更多
Objective:To explore the impact of evidence-based predictive nursing intervention on psychological stress and physiological indicator stability of elderly cataract patients during the perioperative period(1 day before...Objective:To explore the impact of evidence-based predictive nursing intervention on psychological stress and physiological indicator stability of elderly cataract patients during the perioperative period(1 day before surgery to 1 day after surgery),and to provide a basis for optimizing clinical nursing plans for elderly cataract surgery.Methods:A retrospective selection of 90 elderly patients(aged≥60 years)who underwent cataract surgery in the Ophthalmology Department of our hospital from August 2024 to December 2024 was conducted.They were divided into an observation group(n=45)and a control group(n=45)using a random number table method.The control group received routine nursing for cataract surgery,while the observation group implemented evidence-based predictive nursing intervention(including the establishment of a multidisciplinary evidence-based team,hierarchical psychological intervention,perioperative environment optimization,intraoperative personalized cooperation,and video-based health education).Psychological stress indicators[Self-Rating Anxiety Scale(SAS),Self-Rating Depression Scale(SDS),General Self-Efficacy Scale(GSES)]on the 1st day before surgery and 1st day after surgery,and fluctuations of physiological indicators[Heart Rate(HR),Systolic Blood Pressure(SBP),Diastolic Blood Pressure(DBP)]on the 1st day before surgery and during surgery were compared between the two groups.Results:Before intervention,there were no statistically significant differences in SAS,SDS,GSES scores,HR,SBP,or DBP between the two groups(p>0.05);after intervention,the SAS score(33.62±5.72)and SDS score(32.14±4.86)of the observation group on the 1st day after surgery were significantly lower than those of the control group[(41.05±5.56),(43.59±4.75)],and the GSES score(31.15±3.28)was significantly higher than that of the control group(24.84±3.52)(all p<0.05);during surgery,the fluctuations of HR(74.0±6.0)beats/min,SBP(127.0±15.8)mmHg,and DBP(75.0±5.9)mmHg in the observation group were significantly smaller than those in the control group(all p<0.05).Conclusion:Evidence-based predictive nursing intervention can effectively alleviate anxiety and depression in elderly cataract patients during the perioperative period,improve self-efficacy,stabilize intraoperative physiological status,and enhance surgical cooperation,which is worthy of clinical promotion.展开更多
The brain is the most complex human organ,and commonly used models,such as two-dimensional-cell cultures and animal brains,often lack the sophistication needed to accurately use in research.In this context,human cereb...The brain is the most complex human organ,and commonly used models,such as two-dimensional-cell cultures and animal brains,often lack the sophistication needed to accurately use in research.In this context,human cerebral organoids have emerged as valuable tools offering a more complex,versatile,and human-relevant system than traditional animal models,which are often unable to replicate the intricate architecture and functionality of the human brain.Since human cerebral organoids are a state-of-the-art model for the study of neurodevelopment and different pathologies affecting the brain,this field is currently under constant development,and work in this area is abundant.In this review,we give a complete overview of human cerebral organoids technology,starting from the different types of protocols that exist to generate different human cerebral organoids.We continue with the use of brain organoids for the study of brain pathologies,highlighting neurodevelopmental,psychiatric,neurodegenerative,brain tumor,and infectious diseases.Because of the potential value of human cerebral organoids,we describe their use in transplantation,drug screening,and toxicology assays.We also discuss the technologies available to study cell diversity and physiological characteristics of organoids.Finally,we summarize the limitations that currently exist in the field,such as the development of vasculature and microglia,and highlight some of the novel approaches being pursued through bioengineering.展开更多
Human spinal cord organoids(hSCOs)offer a promising platform to study neurotrauma by addressing many limitations of traditional research models.These organoids provide access to human-specific physiological and geneti...Human spinal cord organoids(hSCOs)offer a promising platform to study neurotrauma by addressing many limitations of traditional research models.These organoids provide access to human-specific physiological and genetic mechanisms and can be derived from an individual's somatic cells(e.g.,blood or skin).This enables patient-specific paradigms for precision neurotrauma research,pa rticula rly relevant to the over 300,000 people in the United States living with chronic effects of spinal cord injury(SCI).展开更多
In the evolving global economy,China’s Outward Foreign Direct Investment(OFDI)holds increasing significance,specially within the context of the Belt and Road Initiative(BRI).Despite earlier studies have acknowledged ...In the evolving global economy,China’s Outward Foreign Direct Investment(OFDI)holds increasing significance,specially within the context of the Belt and Road Initiative(BRI).Despite earlier studies have acknowledged the role of governance quality in at-tracting Chinese OFDI,their explanatory capacity regarding human development has not received sufficient attention.This study ad-dresses this gap,investigating the relationship between Chinese OFDI and human development,emphasizing the governance quality’s moderating role.Using data from 122 BRI countries from 2004 to 2021,we employed the Panel Corrected Standard Error model through Prais-Winsten regression,complimented by robustness check via the Spatial Durbin Model.Our analysis revealed a significant positive relationship between Chinese OFDI and human development in BRI countries,indicating that Chinese investments act as cata-lysts for improved well-being.More importantly,governance quality plays a vital role in shaping this relationship,revealing that effect-ive governance enhanced the human development outcomes of OFDI.Post-hoc analysis of governance indicators,both as a composite index and individual dimensions,supported this finding.Regional heterogeneity analysis further showed that Chinese OFDI has stronger effects on Human Development Index(HDI)in Asia and Africa compared to Europe,Latin America,and Oceania.However,the moder-ating effect of governance quality seemed more prominent in Oceania and Latin America,indicating its role in fostering the benefits of Chinese investments in these regions.These findings hold implications for academia and policy,emphasizing the need for transparent,accountable,and effective governance to drive sustainable and inclusive human development within the BRI framework.展开更多
I was 26 the first time I travelled to China,and even now,it feels like an unexpected chapter in my life.The opportunity came out of the blue.I learned,just a month before departure,that I had been selected for a one-...I was 26 the first time I travelled to China,and even now,it feels like an unexpected chapter in my life.The opportunity came out of the blue.I learned,just a month before departure,that I had been selected for a one-month professional training programme.The news ignited a wave of excitement.For nearly two weeks,I stayed up late into the night,imagining a country I had never seen,trying to picture what China might really be like,beyond the images in books,films and media.展开更多
By comparing the growth trajectories of East Asia and Latin America,this study finds that during industrialization,East Asian economies actively advanced their manufacturing sectors toward high-end production and achi...By comparing the growth trajectories of East Asia and Latin America,this study finds that during industrialization,East Asian economies actively advanced their manufacturing sectors toward high-end production and achieved a higher relative density of high-skilled labor within this sector.In contrast,Latin American economies experienced a“low-end lock-in”in manufacturing,with high-skilled labor more heavily concentrated in the service sector.To provide a unified explanation of these patterns of industrial transformation and labor allocation,this paper develops a three-sector general equilibrium model that includes basic manufacturing(BM),high-end manufacturing(HM),and services,and incorporates labor heterogeneity.The model captures how,under different development thresholds for HM,the allocation of high-skilled labor across sectors leads to two distinct structural transformation paths:from BM to HM,or from BM to services.These paths,in turn,generate different trajectories of human capital accumulation and economic growth performance.Simulation analysis shows that dynamically adjusted industrial policies are more effective than static ones,and that combining education policy with industrial policy yields better outcomes than either policy alone.This study extends theoretical research on industrial structural transformation,highlights the importance of HM for latecomer economies,and offers theoretical underpinnings and decision-making insights for advancing new industrialization and deepening integration between industrial and talent chains.展开更多
Human activities have significantly impacted the land surface temperature(LST),endangering human health;however,the relationship between these two factors has not been adequately quantified.This study comprehensively ...Human activities have significantly impacted the land surface temperature(LST),endangering human health;however,the relationship between these two factors has not been adequately quantified.This study comprehensively constructs a Human Activity Intensity(HAI)index and employs the Maximal Information Coefficient,four-quadrant model,and XGBoostSHAP model to investigate the spatiotemporal relationship and influencing factors of HAI-LST in the Yellow River Basin(YRB)from 2000 to 2020.The results indicated that from 2000 to 2020,as HAI and LST increased,the static HAI-LST relationship in the YRB showed a positive correlation that continued to strengthen.This dynamic relationship exhibited conflicting development,with the proportion of coordinated to conflicting regions shifting from 1:4 to 1:2,indicating a reduction in conflict intensity.Notably,only the degree of conflict in the source area decreased significantly,whereas it intensified in the upper and lower reaches.The key factors influencing the HAI-LST relationship include fractional vegetation cover,slope,precipitation,and evapotranspiration,along with region-specific factors such as PM_(2.5),biodiversity,and elevation.Based on these findings,region-specific ecological management strategies have been proposed to mitigate conflict-prone areas and alleviate thermal stress,thereby providing important guidance for promoting harmonious development between humans and nature.展开更多
Prevention of biological invasion requires understanding how alien species invade native communities.Although studies have identified mechanisms that underlie plant invasion in some habitats,limited attention has focu...Prevention of biological invasion requires understanding how alien species invade native communities.Although studies have identified mechanisms that underlie plant invasion in some habitats,limited attention has focused on invasion patterns along elevational gradients.In this study,we asked which factors drive the global and regional distribution of the invasive plant Galinsoga quadriradiata along elevational gradients.To answer this question,we examined whether human activities(i.e.,roads)promote G.quadriradiata invasion,how seed dispersal-related traits of G.quadriradiata change along elevation gradients,and whether G.quadriradiata has adapted to high-elevation environments through phenotypic plasticity or genetic variation.On the global scale,we found that human activities and road density positively contribute to the G.quadriradiata expansion in mountainous areas.Field surveys in China revealed significant elevational differences in the seed dispersal traits of G.quadriradiata,with higher-elevation populations exhibiting lower dispersal ability and generally lower genetic diversity.Under common conditions,high-elevation populations showed higher leaf mass ratio but lower root mass ratio and reproductive allocation.This suggests that high-elevation environments create a barrier to dispersal for G.quadriradiata,and that G.quadriradiata has adapted phenotypically to these conditions.Our study indicates that the elevational invasion pattern of G.quadriradiata is shaped by multiple factors,particularly human activities and phenotypic adaptability.In addition,our finding that G.quadriradiata invasion at high elevations is not constrained by low genetic diversity indicates that monitoring and management of G.quadriradiata in mountainous areas should be strengthened.展开更多
Background Regular physical training induces adaptive effects across multiple organ systems,highlighting the existence of inter-organ communication networks.However,the molecular mechanisms underlying both exercise-in...Background Regular physical training induces adaptive effects across multiple organ systems,highlighting the existence of inter-organ communication networks.However,the molecular mechanisms underlying both exercise-induced adaptations and organ-to-organ signaling are not fully characterized.Circulating extracellular vesicles(EVs),including exosomes,carry molecules like microRNAs(miRNAs)that may mediate tissue crosstalk.This study aimed to identify specific exercise training-responsive miRNAs that affect skeletal muscle function.Methods miRNA expression profiles of serum-derived EVs were analyzed in healthy young individuals before and after 3 weeks endurance exercise training.Exercise training-responsive miRNAs were then validated for a functional role in cellular metabolic processes in human myotubes.Results We identified several exercise training-responsive miRNAs within exosome-rich EVs in serum,including miR-136-3p.In human myotubes,miR-136-3p enhanced glucose uptake and targeted the nardilysin convertase(NRDC)gene.Transfection of miR-136-3p or silencing of NRDC induced a shift towards glycolytic metabolism in mitochondria and modulated gene expressions related to myogenesis.Pancreatic islets were identified as a potential source of miR-136-3p based on in silico analysis of gene expression and a molecular analysis of conditioned media from isolated pancreatic islets.Conclusion MiR-136-3p is an endurance training-responsive molecular transducer that modulates glucose metabolism and cellular proliferation in myocytes.Associated with EVs,extracellular miR-136-3p may serve as a molecular messenger to communicate islet–skeletal muscle crosstalk after exercise.Extracellular miR-136-3p may serve as a molecular messenger to communicate islet–skeletal muscle crosstalk.Our results highlight a miRNA-mediated mechanism that participates in inter-organ communication to fine tune the metabolic adaptations to exercise.展开更多
Exogenous neural stem cell transplantation has become one of the most promising treatment methods for chronic stroke.Recent studies have shown that most ischemia-reperfusion model rats recover spontaneously after inju...Exogenous neural stem cell transplantation has become one of the most promising treatment methods for chronic stroke.Recent studies have shown that most ischemia-reperfusion model rats recover spontaneously after injury,which limits the ability to observe long-term behavioral recovery.Here,we used a severe stroke rat model with 150 minutes of ischemia,which produced severe behavioral deficiencies that persisted at 12 weeks,to study the therapeutic effect of neural stem cells on neural restoration in chronic stroke.Our study showed that stroke model rats treated with human neural stem cells had long-term sustained recovery of motor function,reduced infarction volume,long-term human neural stem cell survival,and improved local inflammatory environment and angiogenesis.We also demonstrated that transplanted human neural stem cells differentiated into mature neurons in vivo,formed stable functional synaptic connections with host neurons,and exhibited the electrophysiological properties of functional mature neurons,indicating that they replaced the damaged host neurons.The findings showed that human fetal-derived neural stem cells had long-term effects for neurological recovery in a model of severe stroke,which suggests that human neural stem cells-based therapy may be effective for repairing damaged neural circuits in stroke patients.展开更多
BACKGROUND Donor-specific antibodies(DSAs)against human leukocyte antigen(HLA)-DQ are increasingly recognized as major contributors to antibody-mediated rejection(AMR)and graft failure in kidney transplantation.Howeve...BACKGROUND Donor-specific antibodies(DSAs)against human leukocyte antigen(HLA)-DQ are increasingly recognized as major contributors to antibody-mediated rejection(AMR)and graft failure in kidney transplantation.However,their clinical impact remains understudied in Morocco.AIM To evaluate the presence and implications of anti-HLA-DQ DSAs in Moroccan kidney transplant recipients.METHODS We retrospectively analyzed the immunological profiles and clinical outcomes of kidney transplant recipients screened for anti-HLA antibodies between 2015 and 2020,who developed anti-HLA-DQ DSAs either before or after transplantation.Anti-HLA antibodies were identified using Luminex®single antigen bead technology,and clinical follow-up included graft function assessment,biopsy interpretation,and evaluation of immunosuppression.RESULTS In the pre-transplant group(n=6 with confirmed donor typing),patients with low to moderate median fluorescence intensity(MFI)anti-HLA-DQ DSAs(MFI 561-1581)underwent successful transplantation and maintained stable graft function under optimized immunosuppression.In contrast,in the post-transplant group(n=6 with confirmed donor typing),the emergence of de novo anti-HLA-DQ DSAs was consistently associated with AMR,with MFI values reaching up to 19473,with biopsy-proven AMR in 5 of 6 cases and suspicion of AMR in 1 case.Two representative cases are detailed to illustrate the clinical impact of DQ DSAs:one patient developed high-level anti-DQB1*02 de novo DSA(MFI 12029)with persistent AMR after 5 years,while another developed anti-DQA1*05:01 de novo DSA after an early AMR episode but maintained stable graft function after 5 years(creatinine 1.48 mg/dL).CONCLUSION Our findings underscore the clinical significance of anti-HLA-DQ DSAs in Moroccan kidney transplant recipients.While preformed DSAs with low immunogenicity may permit successful transplantation,de novo DSAs strongly correlate with AMR.Proactive monitoring,including routine DSA screening and HLA-DQ typing,could improve graft outcomes by enabling early intervention and better donor selection.展开更多
Parkinson’s disease(PD)is the second most common neurodegenerative disorder.The progressive degeneration of dopamine(DA)producing neurons in the midbrain is the pathological hallmark,which leads to debilitating motor...Parkinson’s disease(PD)is the second most common neurodegenerative disorder.The progressive degeneration of dopamine(DA)producing neurons in the midbrain is the pathological hallmark,which leads to debilitating motor symptoms,including tremors,rigidity,and bradykinesia.Drug treatments,such as levodopa,provide symptomatic relief.However,they do not halt disease progression,and their effectiveness diminishes over time(reviewed in Poewe et al.,2017).展开更多
基金Supported by Beijing Municipal Natural Science Foundation(No.7202229No.7242168)China Primary Health Care Foundation(No.MTP2022C025).
文摘AIM:To explore the role of a previously-found MYH9 tail domain mutation(p.E1384Q)in the pathogenesis of congenital cataract.METHODS:The cell experiments were conducted in vitro.Wild-type(WT)MYH9 and p.E1384Q mutant fragments were constructed,which was then transiently transfected into Hek293T cell lines.Western blotting and quantitative real time polymerase chain reaction(qRT-PCR)were used to analyze the protein and mRNA level of non-muscle myosin IIA(NM IIA)and F-actin in transfected cells,and fluorescence microscopy was applied to explore the subcellular localization of NM IIA and F-actin.Cell counting kit-8(CCK8),woundhealing and double staining flow cytometry assays were performed to evaluate the proliferation,migration and apoptosis function of transfected cells,respectively.Transmission electron microscope was conducted to observe the alteration of organelle structure.RESULTS:The transiently-transfected WT and p.E1384Q mutant Hek293T cell lines was constructed.Western blot demonstrated that,comparing with MYH9WT group,the relative protein amount of NM IIA and F-actin significantly decreased in MYH9E1384Q cells(P<0.001).qRT-PCR analysis revealed that the relative mRNA amount of NM IIA and F-actin also significantly reduced in MYH9E1384Q cells when compared with MYH9WT.The immunofluorescence microscopy showed that the fluorescence signal of NM IIA and F-actin significantly decreased in E1384Q cells.The diffuse cytoplasmic distribution of NM IIA in MYH9WT was changed to be clumped distribution,presenting a“speckled”pattern characterized by aggregates of small size in MYH9E1384Q.Functional study revealed that the E1384Q mutation significantly inhibited cell proliferation(P=0.003)and migration(P<0.001),and promoted apoptosis(P<0.001).Electron microscope showed that the mutation remarkably decreased the number of mitochondria(P<0.001)and changed the phenotype of mitochondria.CONCLUSION:The missense gene mutation in MYH9(p.E1384Q)causing congenital cataract results in decreased amount and altered subcellular distribution of NM IIA and F-actin,accompanied by decreased cell proliferation and migration,promotes apoptosis and mitochondrial alteration.
文摘Food Science and Human Wellness (FSHW ISSN:2213-4530, CN 10-1750/TS) publishes original research papers demonstrating the latest advancement of multidisciplinary subjects related to food science and human health.Topics may include but not limited to: nutriology, biochemistry, microbiology, immunology and toxicology.
文摘Food Science and Human Wellness(FSHW ISSN:2213-4530,CN 10-1750/TS)publishes original research papers demonstrating the latest advancement of multidisci plinary subjects related to food science and human health Topics may include but not limited to:nutriology,bio.chemistry,microbiology,immunology and toxicology.
基金Supported by the Program for Zhejiang Leading Talent of S&T Innovation(No.2021R52012)Key Research and Development Projects of Zhejiang Province(No.2022C03112).
文摘AIM:To compare the efficacy of goniosynechialysis(GSL)under a microscope alone(GM)and under direct gonioscopy(GG)for chronic angle-closure glaucoma(CACG)coexisted with cataract.METHODS:A prospective,single-center,and randomized controlled trial was conducted.Patients diagnosed as CACG and cataract were randomly allocated into either GM group or GG group.In GM group,the range of peripheral anterior synechiae(PAS)was confirmed through gonio-lens after phacoemulsification with intraocular lens implantation(PEI).PAS was separated only under a microscope.After separating the closed angle of 360°by this method,we used a surgical gonioscope to confirm the PAS range.If any remaining PAS was present,we would separate them with an iris repositor under the direct gonio-lens until angle of 360°was reopened.In GG group,PAS was separated under direct gonioscopy after PEI until angle of 360°was reopened.The range of residual PAS after GSLs was the primary outcome.Intraoperative complications(hyphema),intraocular pressure(IOP)and anti-glaucoma medication usage after operation were the secondary outcomes.RESULTS:Sixty eyes were included,each group comprising 30 eyes.The average age[GM group:66.3±6.8y(12 males),GG group:67.6±8.9y(7 males),P=0.550],the baseline IOP(GM group:29.6±11.5 mm Hg,GG group:32.4±12.2 mm Hg,P=0.366)and the average initial PAS extent(GM group:8.9±2.6h,GG group:9.4±2.5h,P=0.425)were similar in the two groups.In GM group,the PAS range reduced from 8.9±2.6h before operation to 7.2±2.9h after PEI and 3.3±2.2h after GSL.In GG group,the PAS range reduced from 9.4±2.5h before operation to 7.5±2.9h after PEI and 0.1±0.3h after GSL.The PAS after PEI was significantly reduced compared to the preoperative PAS in both groups(all P<0.001).The extent of residual PAS after GSL in GM group was larger than that in GG group with significant statistical difference(P<0.001).Patients who underwent GSL without a gonioscope were more likely to develop hyphema than those who underwent GSL under direct gonioscopy.The difference of hyphema grade between the two groups was statistically significant(P=0.019).CONCLUSION:PEI alone can not open 360°of angle completely.PEI+GSL significantly reduced PAS range.But for patients with CACG,GSL under a microscope alone is more difficult to separate stable PAS completely and adequately than GSL under direct gonioscopy.
基金Supported by the National Natural Science Foundation of China(No.82501261)Medical Research Projects of the Jiangsu Provincial Health Commission(No.M2024041).
文摘AIM:To investigate the causal effect of obesity on cataract risk and explores the potential mediating roles of metabolites using Mendelian randomization(MR).METHODS:Summary-level data from large-scale genome-wide association studies to examine the relationship between obesity and cataract were utilized.Obesity-related traits,including body mass index(BMI),waist-to-hip ratio(WHR),and waist circumference(WC).A two-sample MR approach was employed to assess the causal effect of obesity on cataract risk,while potential mediators were identified from suitable genome-wide association studies(GWAS)datasets.Additionally,a metabolic pathway analysis was conducted.RESULTS:An increase of 1 standard deviation(SD)in BMI,WHR,and WC was associated with a significantly higher risk of cataract(BMI:odds ratio(OR)1.0017,95%confidence interval(CI):1.0001-1.0032,P=0.0320;WHR:OR 1.0029,95%CI:1.0006-1.0051,P=0.0129;WC:OR 1.0020,95%CI:1.0001-1.0038,P=0.0390].These associations remained robust after adjusting for confounding factors in multivariable MR analysis.Furthermore,a two-step MR analysis identified eight potential metabolic mediators,with one mediator showing a significant causal role in the relationship between obesity and cataract.CONCLUSION:This work highlights the importance of addressing obesity as a modifiable risk factor for cataracts,particularly through metabolic pathways.
文摘AIM:To compare the anatomical and functional outcomes of combined phacoemulsification with intravitreal dexamethasone implant(DEX-I)versus anti-vascular endothelial growth factor(VEGF)injections in patients with diabetic macular edema(DME)and visually significant cataract.METHODS:This nonrandomized,retrospective analysis included 54 eyes undergoing phacoemulsification with DEX-I(DEX-I group)and 47 eyes receiving anti-VEGF injections(anti-VEGF group).Best-corrected visual acuity(BCVA)and central macular thickness(CMT)were measured preoperatively and postoperatively at 1 and 3mo.RESULTS:The two groups had comparable baseline characteristics,with similar age(DEX-I:66.83±7.27y;anti-VEGF:66.81±6.79y)and gender distribution(51.9%vs 59.6%males).Both groups showed significant BCVA improvement at 1 and 3mo,with no significant intergroup differences.CMT reduction was significantly greater in the DEX-I group at 3mo(25.03%vs 14.07%;P=0.049),particularly in recalcitrant eyes(25.09%vs 11.10%;P=0.007).Postoperative intraocular pressure(IOP)>21 mm Hg was observed in 14.8%of DEX-I eyes and 4.25%of anti-VEGF eyes(P=0.08),normalizing by 3mo.DEX-I required no reinjection,while 29.79%of anti-VEGF eyes needed a fourth dose at 3mo.Complications were minimal,with one posterior capsular injury in the DEX-I group.CONCLUSION:Combined phacoemulsification with intravitreal DEX-I offers superior CMT reduction and comparable visual acuity improvement to anti-VEGF injections in DME,with fewer required treatments.It is an effective strategy for managing cataract with DME,offering benefits,especially for recalcitrant cases.Both therapies have favourable safety profiles,but further long-term studies are needed for clinical guidance.
文摘AIM:To assess the visual acuity and visual quality of cataract patients who received femtosecond laser-assisted cataract surgery(FLACS)and multifocal intraocular lens(MIOL)implantation with an improved polishing technique during a 1-year follow-up period.METHODS:This study included 74 eyes from 37 patients,comprising 17 males and 20 females,with a mean age of 51.74±7.80 years.Using a coin toss method,one eye per patient was randomly selected for improved anterior capsular polishing,while the other eye received standard irrigation/aspiration(I/A)polishing.The polishing group consisted of 37 eyes,including 21 right and 16 left eyes,while the control group comprised the contralateral fellow eyes of the same individuals in the polishing group.Visual acuity and quality of the patients were evaluated before surgery and at 1 wk,1,6,and 12 mo after surgery.The OPD-Scan III was utilized to assess high-order aberrations,while the optical quality analysis system(OQAS)was employed to evaluate modulation transfer function(MTF cutoff),Strehl ratio(SR),and objective scatter index(OSI)for the purpose of visual quality assessment.Paired t-tests and repeated measures analysis of variance(ANOVA)were utilized to compare the results,and the SNK-q post hoc test was applied to identify significant differences.RESULTS:The polishing group’s uncorrected distant visual acuity(UDVA)and uncorrected near visual acuity(UNVA)significantly improved 1-week post-surgery(all P<0.05).At 12-months,UDVA,UNVA,and corrected distant visual acuity(CDVA)were better than the control group(P<0.05).The MTF cutoff,SR,OSI,and high-order aberrations in the polishing group also showed significant improvements compared to the control group at 12 mo(P<0.05).CONCLUSION:The improved capsular polishing method has been demonstrated to effectively maintain visual acuity and visual quality in patients with MIOL after FLACS within 1 a.
基金supported by National Natural Science Foundation of China(NSFC)under grant U23A20310.
文摘With the growing advancement of wireless communication technologies,WiFi-based human sensing has gained increasing attention as a non-intrusive and device-free solution.Among the available signal types,Channel State Information(CSI)offers fine-grained temporal,frequency,and spatial insights into multipath propagation,making it a crucial data source for human-centric sensing.Recently,the integration of deep learning has significantly improved the robustness and automation of feature extraction from CSI in complex environments.This paper provides a comprehensive review of deep learning-enhanced human sensing based on CSI.We first outline mainstream CSI acquisition tools and their hardware specifications,then provide a detailed discussion of preprocessing methods such as denoising,time–frequency transformation,data segmentation,and augmentation.Subsequently,we categorize deep learning approaches according to sensing tasks—namely detection,localization,and recognition—and highlight representative models across application scenarios.Finally,we examine key challenges including domain generalization,multi-user interference,and limited data availability,and we propose future research directions involving lightweight model deployment,multimodal data fusion,and semantic-level sensing.
基金Hospital Quality Management Research Fund Project of China Medical Quality Management Association(Project No.:YLZG202511)。
文摘Objective:To explore the impact of evidence-based predictive nursing intervention on psychological stress and physiological indicator stability of elderly cataract patients during the perioperative period(1 day before surgery to 1 day after surgery),and to provide a basis for optimizing clinical nursing plans for elderly cataract surgery.Methods:A retrospective selection of 90 elderly patients(aged≥60 years)who underwent cataract surgery in the Ophthalmology Department of our hospital from August 2024 to December 2024 was conducted.They were divided into an observation group(n=45)and a control group(n=45)using a random number table method.The control group received routine nursing for cataract surgery,while the observation group implemented evidence-based predictive nursing intervention(including the establishment of a multidisciplinary evidence-based team,hierarchical psychological intervention,perioperative environment optimization,intraoperative personalized cooperation,and video-based health education).Psychological stress indicators[Self-Rating Anxiety Scale(SAS),Self-Rating Depression Scale(SDS),General Self-Efficacy Scale(GSES)]on the 1st day before surgery and 1st day after surgery,and fluctuations of physiological indicators[Heart Rate(HR),Systolic Blood Pressure(SBP),Diastolic Blood Pressure(DBP)]on the 1st day before surgery and during surgery were compared between the two groups.Results:Before intervention,there were no statistically significant differences in SAS,SDS,GSES scores,HR,SBP,or DBP between the two groups(p>0.05);after intervention,the SAS score(33.62±5.72)and SDS score(32.14±4.86)of the observation group on the 1st day after surgery were significantly lower than those of the control group[(41.05±5.56),(43.59±4.75)],and the GSES score(31.15±3.28)was significantly higher than that of the control group(24.84±3.52)(all p<0.05);during surgery,the fluctuations of HR(74.0±6.0)beats/min,SBP(127.0±15.8)mmHg,and DBP(75.0±5.9)mmHg in the observation group were significantly smaller than those in the control group(all p<0.05).Conclusion:Evidence-based predictive nursing intervention can effectively alleviate anxiety and depression in elderly cataract patients during the perioperative period,improve self-efficacy,stabilize intraoperative physiological status,and enhance surgical cooperation,which is worthy of clinical promotion.
基金supported by the Grant PID2021-126715OB-IOO financed by MCIN/AEI/10.13039/501100011033 and"ERDFA way of making Europe"by the Grant PI22CⅢ/00055 funded by Instituto de Salud CarlosⅢ(ISCⅢ)+6 种基金the UFIECPY 398/19(PEJ2018-004965) grant to RGS funded by AEI(Spain)the UFIECPY-396/19(PEJ2018-004961)grant financed by MCIN (Spain)FI23CⅢ/00003 grant funded by ISCⅢ-PFIS Spain) to PMMthe UFIECPY 328/22 (PEJ-2021-TL/BMD-21001) grant to LM financed by CAM (Spain)the grant by CAPES (Coordination for the Improvement of Higher Education Personnel)through the PDSE program (Programa de Doutorado Sanduiche no Exterior)to VSCG financed by MEC (Brazil)
文摘The brain is the most complex human organ,and commonly used models,such as two-dimensional-cell cultures and animal brains,often lack the sophistication needed to accurately use in research.In this context,human cerebral organoids have emerged as valuable tools offering a more complex,versatile,and human-relevant system than traditional animal models,which are often unable to replicate the intricate architecture and functionality of the human brain.Since human cerebral organoids are a state-of-the-art model for the study of neurodevelopment and different pathologies affecting the brain,this field is currently under constant development,and work in this area is abundant.In this review,we give a complete overview of human cerebral organoids technology,starting from the different types of protocols that exist to generate different human cerebral organoids.We continue with the use of brain organoids for the study of brain pathologies,highlighting neurodevelopmental,psychiatric,neurodegenerative,brain tumor,and infectious diseases.Because of the potential value of human cerebral organoids,we describe their use in transplantation,drug screening,and toxicology assays.We also discuss the technologies available to study cell diversity and physiological characteristics of organoids.Finally,we summarize the limitations that currently exist in the field,such as the development of vasculature and microglia,and highlight some of the novel approaches being pursued through bioengineering.
基金supported by the Belle Carnell Regenerative Neurorehabilitation Fundthe National Institutes of Health(R01NS113935 to CKF)。
文摘Human spinal cord organoids(hSCOs)offer a promising platform to study neurotrauma by addressing many limitations of traditional research models.These organoids provide access to human-specific physiological and genetic mechanisms and can be derived from an individual's somatic cells(e.g.,blood or skin).This enables patient-specific paradigms for precision neurotrauma research,pa rticula rly relevant to the over 300,000 people in the United States living with chronic effects of spinal cord injury(SCI).
基金Under the auspices of Fundamental Research Funds for the Central Universities,Zhongnan University of Economics and Law,China(No.2722021EG001)。
文摘In the evolving global economy,China’s Outward Foreign Direct Investment(OFDI)holds increasing significance,specially within the context of the Belt and Road Initiative(BRI).Despite earlier studies have acknowledged the role of governance quality in at-tracting Chinese OFDI,their explanatory capacity regarding human development has not received sufficient attention.This study ad-dresses this gap,investigating the relationship between Chinese OFDI and human development,emphasizing the governance quality’s moderating role.Using data from 122 BRI countries from 2004 to 2021,we employed the Panel Corrected Standard Error model through Prais-Winsten regression,complimented by robustness check via the Spatial Durbin Model.Our analysis revealed a significant positive relationship between Chinese OFDI and human development in BRI countries,indicating that Chinese investments act as cata-lysts for improved well-being.More importantly,governance quality plays a vital role in shaping this relationship,revealing that effect-ive governance enhanced the human development outcomes of OFDI.Post-hoc analysis of governance indicators,both as a composite index and individual dimensions,supported this finding.Regional heterogeneity analysis further showed that Chinese OFDI has stronger effects on Human Development Index(HDI)in Asia and Africa compared to Europe,Latin America,and Oceania.However,the moder-ating effect of governance quality seemed more prominent in Oceania and Latin America,indicating its role in fostering the benefits of Chinese investments in these regions.These findings hold implications for academia and policy,emphasizing the need for transparent,accountable,and effective governance to drive sustainable and inclusive human development within the BRI framework.
文摘I was 26 the first time I travelled to China,and even now,it feels like an unexpected chapter in my life.The opportunity came out of the blue.I learned,just a month before departure,that I had been selected for a one-month professional training programme.The news ignited a wave of excitement.For nearly two weeks,I stayed up late into the night,imagining a country I had never seen,trying to picture what China might really be like,beyond the images in books,films and media.
文摘By comparing the growth trajectories of East Asia and Latin America,this study finds that during industrialization,East Asian economies actively advanced their manufacturing sectors toward high-end production and achieved a higher relative density of high-skilled labor within this sector.In contrast,Latin American economies experienced a“low-end lock-in”in manufacturing,with high-skilled labor more heavily concentrated in the service sector.To provide a unified explanation of these patterns of industrial transformation and labor allocation,this paper develops a three-sector general equilibrium model that includes basic manufacturing(BM),high-end manufacturing(HM),and services,and incorporates labor heterogeneity.The model captures how,under different development thresholds for HM,the allocation of high-skilled labor across sectors leads to two distinct structural transformation paths:from BM to HM,or from BM to services.These paths,in turn,generate different trajectories of human capital accumulation and economic growth performance.Simulation analysis shows that dynamically adjusted industrial policies are more effective than static ones,and that combining education policy with industrial policy yields better outcomes than either policy alone.This study extends theoretical research on industrial structural transformation,highlights the importance of HM for latecomer economies,and offers theoretical underpinnings and decision-making insights for advancing new industrialization and deepening integration between industrial and talent chains.
基金Shanxi Province Graduate Research Practice Innovation Project,No.2023KY465Project on the Reform of Graduate Education and Teaching in Shanxi Province,No.2021YJJG146+1 种基金Research Project of Shanxi Provincial Cultural Relics Bureau,No.22-8-14-1400-119National Key R&D Program of China,No.2021YFB3901300。
文摘Human activities have significantly impacted the land surface temperature(LST),endangering human health;however,the relationship between these two factors has not been adequately quantified.This study comprehensively constructs a Human Activity Intensity(HAI)index and employs the Maximal Information Coefficient,four-quadrant model,and XGBoostSHAP model to investigate the spatiotemporal relationship and influencing factors of HAI-LST in the Yellow River Basin(YRB)from 2000 to 2020.The results indicated that from 2000 to 2020,as HAI and LST increased,the static HAI-LST relationship in the YRB showed a positive correlation that continued to strengthen.This dynamic relationship exhibited conflicting development,with the proportion of coordinated to conflicting regions shifting from 1:4 to 1:2,indicating a reduction in conflict intensity.Notably,only the degree of conflict in the source area decreased significantly,whereas it intensified in the upper and lower reaches.The key factors influencing the HAI-LST relationship include fractional vegetation cover,slope,precipitation,and evapotranspiration,along with region-specific factors such as PM_(2.5),biodiversity,and elevation.Based on these findings,region-specific ecological management strategies have been proposed to mitigate conflict-prone areas and alleviate thermal stress,thereby providing important guidance for promoting harmonious development between humans and nature.
基金supported by the National Natural Science Foundation of China(32271584 and 31600445)the Natural Science Basic Research Plan in Shaanxi Province of China(2020JM-286)+2 种基金the Fundamental Research Funds for the Central Universities(GK202103072,GK202103073)the National College Students'Innovative Entrepreneurial Training Plan Program(202310718085)Special Research Project in Philosophy and Social Sciences of Shaanxi Province(2022HZ1795).
文摘Prevention of biological invasion requires understanding how alien species invade native communities.Although studies have identified mechanisms that underlie plant invasion in some habitats,limited attention has focused on invasion patterns along elevational gradients.In this study,we asked which factors drive the global and regional distribution of the invasive plant Galinsoga quadriradiata along elevational gradients.To answer this question,we examined whether human activities(i.e.,roads)promote G.quadriradiata invasion,how seed dispersal-related traits of G.quadriradiata change along elevation gradients,and whether G.quadriradiata has adapted to high-elevation environments through phenotypic plasticity or genetic variation.On the global scale,we found that human activities and road density positively contribute to the G.quadriradiata expansion in mountainous areas.Field surveys in China revealed significant elevational differences in the seed dispersal traits of G.quadriradiata,with higher-elevation populations exhibiting lower dispersal ability and generally lower genetic diversity.Under common conditions,high-elevation populations showed higher leaf mass ratio but lower root mass ratio and reproductive allocation.This suggests that high-elevation environments create a barrier to dispersal for G.quadriradiata,and that G.quadriradiata has adapted phenotypically to these conditions.Our study indicates that the elevational invasion pattern of G.quadriradiata is shaped by multiple factors,particularly human activities and phenotypic adaptability.In addition,our finding that G.quadriradiata invasion at high elevations is not constrained by low genetic diversity indicates that monitoring and management of G.quadriradiata in mountainous areas should be strengthened.
基金supported by grants from the Knut and Alice Wallenberg foundation(P-OB,JRZ,and AK)the Swedish Research Council(JRZ and AK),Centrum för idrottsforskning(AK and JRZ)+7 种基金the NovoNordisk Foundation Metabolic Stress Associated Molecules(MSAM)consortium NNF15SA0018346 and Metabolite-related Inflammation and Disease(MeRIAD)consortium Grant number 0064142(AK)the Swedish Diabetes Foundation(AK and JRZ)the European Foundation for the Study of Diabetes(JRZ and AK)the Region Stockholm(ALF project)(JRZ and KC)the Strategic Research Program in Diabetes at Karolinska Institutet(JRZ and AK)supported by the Strategic Research Programme in Diabetes(SRP Diabetes)for use of the Seahorse flux analyzer.Human islets were made possible through the Juvenile Diabetes Research Foundation(JDRF)award 31-2008-416(European Coordinating Infrastructure for Islet Transplantation(ECIT),Islet for Basic Research program)AK holds a Distinguished Investigator Grant within Endocrinology and Metabolism from the Novo Nordisk Foundation(NNF24OC0088739)JRZ received the 2024 European Association for the Study of Diabetes(ESAD)-Novo Nordisk Foundation Diabetes Prize for Excellence(NNF24SA0092609).
文摘Background Regular physical training induces adaptive effects across multiple organ systems,highlighting the existence of inter-organ communication networks.However,the molecular mechanisms underlying both exercise-induced adaptations and organ-to-organ signaling are not fully characterized.Circulating extracellular vesicles(EVs),including exosomes,carry molecules like microRNAs(miRNAs)that may mediate tissue crosstalk.This study aimed to identify specific exercise training-responsive miRNAs that affect skeletal muscle function.Methods miRNA expression profiles of serum-derived EVs were analyzed in healthy young individuals before and after 3 weeks endurance exercise training.Exercise training-responsive miRNAs were then validated for a functional role in cellular metabolic processes in human myotubes.Results We identified several exercise training-responsive miRNAs within exosome-rich EVs in serum,including miR-136-3p.In human myotubes,miR-136-3p enhanced glucose uptake and targeted the nardilysin convertase(NRDC)gene.Transfection of miR-136-3p or silencing of NRDC induced a shift towards glycolytic metabolism in mitochondria and modulated gene expressions related to myogenesis.Pancreatic islets were identified as a potential source of miR-136-3p based on in silico analysis of gene expression and a molecular analysis of conditioned media from isolated pancreatic islets.Conclusion MiR-136-3p is an endurance training-responsive molecular transducer that modulates glucose metabolism and cellular proliferation in myocytes.Associated with EVs,extracellular miR-136-3p may serve as a molecular messenger to communicate islet–skeletal muscle crosstalk after exercise.Extracellular miR-136-3p may serve as a molecular messenger to communicate islet–skeletal muscle crosstalk.Our results highlight a miRNA-mediated mechanism that participates in inter-organ communication to fine tune the metabolic adaptations to exercise.
文摘Exogenous neural stem cell transplantation has become one of the most promising treatment methods for chronic stroke.Recent studies have shown that most ischemia-reperfusion model rats recover spontaneously after injury,which limits the ability to observe long-term behavioral recovery.Here,we used a severe stroke rat model with 150 minutes of ischemia,which produced severe behavioral deficiencies that persisted at 12 weeks,to study the therapeutic effect of neural stem cells on neural restoration in chronic stroke.Our study showed that stroke model rats treated with human neural stem cells had long-term sustained recovery of motor function,reduced infarction volume,long-term human neural stem cell survival,and improved local inflammatory environment and angiogenesis.We also demonstrated that transplanted human neural stem cells differentiated into mature neurons in vivo,formed stable functional synaptic connections with host neurons,and exhibited the electrophysiological properties of functional mature neurons,indicating that they replaced the damaged host neurons.The findings showed that human fetal-derived neural stem cells had long-term effects for neurological recovery in a model of severe stroke,which suggests that human neural stem cells-based therapy may be effective for repairing damaged neural circuits in stroke patients.
基金Supported by the National Science and Technology Research Center(Morocco)“PhD-Associate Scholarship-PASS”Program,No.88UH2C2023.
文摘BACKGROUND Donor-specific antibodies(DSAs)against human leukocyte antigen(HLA)-DQ are increasingly recognized as major contributors to antibody-mediated rejection(AMR)and graft failure in kidney transplantation.However,their clinical impact remains understudied in Morocco.AIM To evaluate the presence and implications of anti-HLA-DQ DSAs in Moroccan kidney transplant recipients.METHODS We retrospectively analyzed the immunological profiles and clinical outcomes of kidney transplant recipients screened for anti-HLA antibodies between 2015 and 2020,who developed anti-HLA-DQ DSAs either before or after transplantation.Anti-HLA antibodies were identified using Luminex®single antigen bead technology,and clinical follow-up included graft function assessment,biopsy interpretation,and evaluation of immunosuppression.RESULTS In the pre-transplant group(n=6 with confirmed donor typing),patients with low to moderate median fluorescence intensity(MFI)anti-HLA-DQ DSAs(MFI 561-1581)underwent successful transplantation and maintained stable graft function under optimized immunosuppression.In contrast,in the post-transplant group(n=6 with confirmed donor typing),the emergence of de novo anti-HLA-DQ DSAs was consistently associated with AMR,with MFI values reaching up to 19473,with biopsy-proven AMR in 5 of 6 cases and suspicion of AMR in 1 case.Two representative cases are detailed to illustrate the clinical impact of DQ DSAs:one patient developed high-level anti-DQB1*02 de novo DSA(MFI 12029)with persistent AMR after 5 years,while another developed anti-DQA1*05:01 de novo DSA after an early AMR episode but maintained stable graft function after 5 years(creatinine 1.48 mg/dL).CONCLUSION Our findings underscore the clinical significance of anti-HLA-DQ DSAs in Moroccan kidney transplant recipients.While preformed DSAs with low immunogenicity may permit successful transplantation,de novo DSAs strongly correlate with AMR.Proactive monitoring,including routine DSA screening and HLA-DQ typing,could improve graft outcomes by enabling early intervention and better donor selection.
基金supported by the DGIST start-up funds from the Ministry of Science and ICT(2024010330)a National Research Foundation of Korea(NRF)grant funded by the Korea Government(MSIT)(No.RS-2024-00351442)(to TWK).
文摘Parkinson’s disease(PD)is the second most common neurodegenerative disorder.The progressive degeneration of dopamine(DA)producing neurons in the midbrain is the pathological hallmark,which leads to debilitating motor symptoms,including tremors,rigidity,and bradykinesia.Drug treatments,such as levodopa,provide symptomatic relief.However,they do not halt disease progression,and their effectiveness diminishes over time(reviewed in Poewe et al.,2017).
